Synchronous dataflow (SDF) graphs are a widely used formalism for modelling, analysing and realising streaming applications, both on a single processor and in a multiprocessing context. Efficient schedules are essential to obtain maximal throughput under the constraint of available number of resources. This paper presents an approach to schedule SDF graphs using a proven formalism of timed automata (TA). TA maintain a good balance between expressiveness and tractability, and are supported by powerful verification tools, e.g. Uppaal. We describe a compositional translation of SDF graphs to TA, and analysis and verification in the Uppaal state-of-the-art tool. This approach does not require any transformation of SDF graphs and helps to find s...
Numerous customary applications in digital signal processing may be characterized by synchronous dat...
International audienceThe synchronous dataflow model is widely usedto design real-time streaming app...
In this paper we present a novel approach to throughput analysis of synchronous dataflow (SDF) graph...
Synchronous dataflow (SDF) graphs are a widely used formalism for modelling, analysing and realising...
Synchronous dataflow (SDF) graphs are a widely used formalism for modelling, analysing and realising...
Abstract—Synchronous dataflow graphs (SDFGs) are widely used to represent DSP algorithms and streami...
Synchronous dataflow graphs (SDFGs) are used extensively to model streaming applications. An SDFG ca...
Synchronous dataflow graphs (SDFGs) are widely used to represent digital signal processing algorithm...
Streaming systems are naturally modeled with synchronous dataflow graphs (SDFGs). The max-plus seman...
Synchronous dataflow (SDF) is a graphical model of computation in which sequential process communica...
There are several analysis models and corresponding temporal analysis techniques for checking whethe...
Synchronous dataflow graphs (SDFGs) are widely used to model digital signal processing (DSP) and str...
Abstract—The timing predictability of embedded systems with hard real-time requirements is fundament...
Abstract—Synchronous dataflow graphs (SDFGs) are widely used to model digital signal processing (DSP...
Scenario-aware dataflow is a formalism to model modern dynamic embedded applications whose behaviour...
Numerous customary applications in digital signal processing may be characterized by synchronous dat...
International audienceThe synchronous dataflow model is widely usedto design real-time streaming app...
In this paper we present a novel approach to throughput analysis of synchronous dataflow (SDF) graph...
Synchronous dataflow (SDF) graphs are a widely used formalism for modelling, analysing and realising...
Synchronous dataflow (SDF) graphs are a widely used formalism for modelling, analysing and realising...
Abstract—Synchronous dataflow graphs (SDFGs) are widely used to represent DSP algorithms and streami...
Synchronous dataflow graphs (SDFGs) are used extensively to model streaming applications. An SDFG ca...
Synchronous dataflow graphs (SDFGs) are widely used to represent digital signal processing algorithm...
Streaming systems are naturally modeled with synchronous dataflow graphs (SDFGs). The max-plus seman...
Synchronous dataflow (SDF) is a graphical model of computation in which sequential process communica...
There are several analysis models and corresponding temporal analysis techniques for checking whethe...
Synchronous dataflow graphs (SDFGs) are widely used to model digital signal processing (DSP) and str...
Abstract—The timing predictability of embedded systems with hard real-time requirements is fundament...
Abstract—Synchronous dataflow graphs (SDFGs) are widely used to model digital signal processing (DSP...
Scenario-aware dataflow is a formalism to model modern dynamic embedded applications whose behaviour...
Numerous customary applications in digital signal processing may be characterized by synchronous dat...
International audienceThe synchronous dataflow model is widely usedto design real-time streaming app...
In this paper we present a novel approach to throughput analysis of synchronous dataflow (SDF) graph...